Method and device for printing a scheduled print job

ABSTRACT

A method and apparatus for printing a scheduled print job by a printing device connected to a client device over a network. The method includes transmitting, by the client device, a request to print the scheduled print job to the printing device. The scheduled print job include print data and schedule data corresponding to a scheduled time the print data is to be printed. The printing device obtains the print job from cloud storage or from local storage depending on a storage selection indicator, and executes the scheduled print job at the scheduled time. A determination is made as to whether the scheduled print job was printed successfully at the scheduled time. Further, a message indicating whether the scheduled print job was printed successfully, based on the determination, is sent to a predetermined device.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation-in-part of U.S. application Ser. No.12/715,206 filed on Mar. 1, 2010, and titled “METHOD AND DEVICE FORPRINTING A SCHEDULED PRINT JOB”, which application is incorporated byreference in its entirety into the present application for all purposes.

FIELD

An embodiment relates generally to printing a scheduled print job. Thepresent invention is more particularly related to monitoring andmanaging printing of the scheduled print job.

BACKGROUND

In environments such as an office or computer lab, computers may beconnected to one or more printing devices shared over a network. Toprint an electronic document, a computer user typically transmits arequest to print the electronic document to one of the shared printingdevices. The shared printing device prints the electronic document, inresponse to the print request, and the computer user retrieves theprinted electronic document from the shared printing device.

However, in such environments, it is difficult to maintainconfidentiality of the printed electronic document. For example, it isdifficult to prevent other users from viewing the printed electronicdocument between the time the document is printed by the printing deviceand when the printed electronic document is retrieved by the computeruser. Further, there is also the risk that another user may accidentallyremove the printed electronic document when picking up their own printedelectronic document.

SUMMARY

One embodiment is a printing device that includes a network controlservice, a local storage device and a job scheduler. The network controlservice is configured to receive a request to print a scheduled printjob, the scheduled print job including a print job, and scheduled printjob attributes that include schedule data defining a scheduled time theprint job is to be printed, and a storage selection indicator. The localstorage device is configured to store the print job and the scheduledprint job attributes. The job scheduler is configured to obtain theprint job from cloud storage or the local storage device, depending onthe storage selection indicator, obtain the scheduled print jobattributes from the local storage device, enter, in a scheduled job listin the printing device, schedule data for the scheduled print job;execute the scheduled print job at the scheduled time based on theschedule data; determine whether or not the scheduled print job wasprinted successfully at the scheduled time; and send, to a specifieddevice, a message indicating whether or not the scheduled print job wasprinted successfully.

Embodiments may be implemented by instructions processed by one or moreprocessors, by one or more computer-implemented methods, or by devicesor apparatuses configured accordingly.

BRIEF DESCRIPTION OF THE DRAWINGS

A more complete appreciation of the embodiments and many of theattendant advantages thereof will be readily obtained as the samebecomes better understood by reference to the following detaileddescription when considered in connection with the accompanyingdrawings, wherein:

FIG. 1 depicts an operational example of scheduled printing ofelectronic documents;

FIG. 2 depicts an example scheduled printing system including clientdevices, printing devices, and an e-mail server;

FIG. 3 depicts the client device, the printing devices, and the e-mailserver in further detail;

FIG. 4 depicts hardware components of one embodiment of the clientdevice and the e-mail server;

FIG. 5A depicts hardware components of an example printing device;

FIG. 5B depicts electronic components of the printing device depicted inFIG. 5A;

FIG. 5C depicts details of the multi-port communication interfacedepicted in FIG. 5B;

FIG. 5D depicts an example scheduled print application for a scheduledprint device;

FIG. 6 depicts a flow diagram of a scheduled print process according toone embodiment;

FIG. 7 depicts a flow diagram of one embodiment of a scheduled printprocess performed at the client device;

FIG. 8 depicts a flow diagram of one embodiment of a scheduled printprocess performed at a scheduled print device;

FIGS. 9A-9D are screenshots of example interfaces that may be used torequest a scheduled print job using the client device;

FIG. 10 depicts example PJL commands/comments corresponding to thescheduled print job;

FIGS. 11A-11C are screenshots of example interfaces that may be used tomanage scheduled print jobs via the scheduled print device;

FIGS. 12A and 12B depict an example scheduled print job database schema;

FIG. 13 depicts an example flow diagram for processing a print jobrequest in a scheduled print device;

FIG. 14 depicts an example flow diagram for scheduling execution of ascheduled print job;

FIG. 15 depicts an example flow diagram for executing the scheduledprint job;

FIGS. 16A-16D are example interfaces that may be used by anadministrator to manage a scheduled print device through a webinterface;

FIG. 17 depicts an example system in which an Administrator Dashboardcollects data from a plurality of scheduled print devices;

FIG. 18 depicts an example web service API response;

FIG. 19 depicts example web service API response codes; and

FIG. 20 depicts example data returned based on an API command request;

FIG. 21 depicts a system overview of an example scheduled printingsystem with cloud storage;

FIG. 22 depicts a flow diagram among electronic components in an exampleembodiment of the scheduled print device;

FIG. 23 depicts a client device coupled to cloud storage and a scheduledprint device;

FIG. 24 depicts a flow diagram among electronic components in anotherexample embodiment of the scheduled print device;

FIGS. 25A-25C depict example user interfaces for requesting a scheduledprint job;

FIG. 26A depicts an example scheduled print job database schema for eachscheduled print job stored in the scheduled print device;

FIG. 26B gives a description of the information in the schema of FIG.24A;

FIG. 27 depicts an embodiment for processing a print job received by thescheduled print device 30;

FIG. 28 depicts a process for executing the scheduled print job; and

FIG. 29 depicts an example set of PJL commands/comments generated by theprinter driver for a scheduled print request.

DETAILED DESCRIPTION

FIG. 1 depicts an approach for scheduled printing of electronicdocuments, as disclosed in U.S. Patent Application Publication No.2006/0227368, which is incorporated by reference in its entirety for allpurposes. As depicted in FIG. 1, schedule data is generated in step S2.In step S4, a client sends an electronic document to the printingdevice. The printing device determines whether immediate or scheduledprinting is to be used to print the electronic document, in step S6.Immediate printing is used if no schedule data is associated with thereceived electronic document, or if data indicates that immediateprinting is used. In this situation, in step S8, the printing deviceimmediately prints the electronic document. On the other hand, ifscheduled printing is to be used, then the printing device stores theelectronic document and prints the electronic document based on theschedule data, in step S10.

However, since the electronic document may be scheduled for printing ata later time and/or date, the user may forget to retrieve the printedelectronic document at the scheduled time. The delayed printing may alsomake it difficult to confirm that necessary resources are available atthe time of printing or to confirm that the electronic document wasprinted successfully. Further, the user may need to modify the scheduledprinting of the electronic document based on a change of circumstancesprior to the scheduled printing time.

Print jobs need to be more scalable and accessible, especially when theprint device is connected to Internet or intranet. There is a need toovercome resource limitations on a printing device related to scheduledprint job storage and accessibility of scheduled print jobs through aprint device which is connected to the Internet or an intranet. FIG. 2is a block diagram that depicts an example scheduled printing systemincluding client devices 20 a and 20 b (e.g., a portable or desktopcomputer), printing devices (e.g., normal print devices 26 a-26 c andscheduled print device 30), and e-mail server 50 connected to each otherover a network 12.

The scheduled print device 30 is a printing device on which a scheduledprint application is deployed. Client devices 20 a and 20 b are used tosubmit print jobs of an immediate print type or a scheduled print type.When a client device 20 submits a scheduled print job, the print job issubmitted along with scheduled print related commands and a time and/ordate at which the print job is to be printed. Further, the e-mail server50 allows the scheduled print device 30 to send print job statusinformation back to a user via e-mail. As depicted in FIG. 2, thescheduled printing system may include one or more normal print devices26 a-26 c to which the print job can be distributed based on a commandwithin the print job, or to which print jobs can be routed in case thereis an error in the scheduled print device 30 while printing a scheduledprint job.

FIG. 3 depicts an example network structure including components of theclient device 20, the normal print device 26, the scheduled print device30, and the e-mail server 50. As depicted in FIG. 3, the client device20, the normal print device 26, the scheduled print device 30, and thee-mail server 50 are connected to each other over the network 12, suchas a Local Area Network (LAN), Wide Area Network (WAN), or WirelessLocal Area Network (WLAN). It is noted that the client device 20, thenormal print device 26, the scheduled print device 30, and the e-mailserver 50 need not be connected to each other over the same network, andmay, for example, be connected to each other by any one or a combinationof different communication paths (e.g., the Internet, a LAN, or mobilenetwork).

The client device 20 may include an application 22 and a printer driver24. Application 22 may be any type of application executed on the clientdevice 20. The application 22 may include one or a combination of, forexample, a word processing application, spreadsheet application, e-mailclient, web browser, portable document format (PDF) viewer, imageviewing/editing software, or any other application configured togenerate data for processing by the scheduled print device 30. Theprinter driver 24 is configured to provide a user interface for a userto request printing of a print job, as further discussed below. Theclient device 20 may provide user interfaces such as those depicted inFIGS. 9A-9D. The printer driver 24 is configured to process the datafrom the application 22 and generate print data, and/or schedule datathat is provided to the scheduled print device 30 for processing.

The normal print device 26 may include a print process 28. The printprocess 28 may be implemented by one or more processes for printing aprint job received from the client device 20 or the scheduled printdevice 30.

The scheduled print device 30 includes a print process 31, which may beimplemented by one or more processes for printing a print job receivedfrom the client device 20, and a scheduled print application 32. Thescheduled print application 32 may include an operation panel userinterface module 34, a print job filter module 36, a job schedulingmodule 38, a web configuration module 40, a web service API module 42, astorage 44 storing scheduled print job data 46, and a notificationmodule 48. However, it is noted that one or more of the operation paneluser interface module 34, the print job filter module 36, the jobscheduling module 38, the web configuration module 40, the web serviceAPI module 42, the storage 44 storing scheduled print job data 46, andthe notification module 48 may be provided separately from the scheduledprint application 32.

The operation panel user interface module 34 may be any mechanism and/ormedium that provides for the exchange of information between a user andthe scheduled print device 30, such that the user may view scheduledprint jobs and override one or more corresponding print schedules basedon a user input. The user may override the print schedule by changing ascheduled print time or by requesting immediate printing of a scheduledprint job. Alternatively, the user may request deletion of the scheduledprint job. Example user interfaces provided by the operation panel userinterface module 34 are depicted in FIGS. 11A-11C.

The print job filter module 36, parses a print job and identifies if theprint job received by the scheduled print device 30 is a scheduled printjob or a regular print job based on, for example, scheduled printrelated commands. If the print job is of the scheduled type, the printjob filter module 36 stores the print job in the storage 44 for furtherprocessing and creates a schedule for the job scheduling module 38.Alternatively, the schedule may be created by the job scheduling module38 or other separate module. The job scheduling module 38 maintains andexecutes a list of scheduled print jobs stored in the scheduled printdevice 30. The job scheduling module 38 can be accessed from anoperation panel of the scheduled print device 30, through a webconfiguration module 40, or web service API module 42 to modify ordelete scheduled print jobs. Further, the job scheduling module 38 mayforward the scheduled print job to one or more normal print devices 26for printing, based on whether multiple destinations are designated forthe scheduled print job or the scheduled print job cannot be completeddue to an error (e.g., due to a lack of resources including paper,toner, oil, etc.) in the scheduled print device 30. In otherembodiments, the scheduled print job is forwarded by another separatemodule, such as a dedicated scheduled print job forwarding module.

The web configuration module 40 may be implemented by an mechanism orprocess for generating Web pages, which allows a user or anadministrator to remotely configure and manage (e.g., request immediateprinting of, modify, or delete scheduled print jobs) the scheduled printapplication 32. The web service API module 42 exposes scheduled printdata as a Web Service from the scheduled print device 30. For example,by accessing the web service API module 42, a client application runningon, for example, a personal computer can collect data from the scheduledprint application. Further, the client application can also collect datafrom multiple devices (e.g., a plurality of scheduled print devices 30)by accessing the web service APIs of the respective multiple devices.For example, the web service API can be used to create a dashboardapplication to collect scheduled print job information from a pluralityof scheduled print devices 30.

The scheduled print device 30 also includes storage 44 which isconfigured to store the scheduled print job data 46 received from theclient device 20 and data related to the scheduled print job. In oneembodiment, the scheduled print job data 46 includes schedule datadefining a time and/or date when the print job is to be printed. Inother embodiments, the schedule data includes information that thescheduled print device 30 uses to automatically determine the timeand/or date when the print job is to be printed. For example, a timeand/or date may be automatically determined based on schedule dataincluding an identity of the user requesting the print job, the size ofthe print job, a priority of the print job, a location from which theprint job is requested, a code corresponding to a time and/or date, etc.

The notification module 48 notifies the user requesting the scheduledprint job of a status of the scheduled print job or the device (e.g., ifthere is any error, etc.). The notification module 48 may notify theuser through e-mail, short message service (SMS), instant messageservice (IM), tweet, or a pop up message sent to the client device 20 orother specified device, when the scheduled print job is completed or ifthe scheduled print job was not able to be completed at a specified timedue to an error in the scheduled print device 30.

For example, the notification module 48 may generate and send a messageindicating whether the scheduled print job was completed successfully ata scheduled time. When the scheduled print job is completedsuccessfully, the notification module 48 generates and sends a messageconfirming that the scheduled print job was printed successfully. Whenthe scheduled print job was not completed successfully, the notificationmodule 48 may generate and send a message indicating an error. The errormessage may further specify a rescheduled time or alternative printdevice (e.g., normal print device 26) for printing the scheduled printjob.

In one embodiment, the notification module 48 may generate a remindermessage, to remind a user that the scheduled print job is scheduled tobe printed at the scheduled time. For example, the notification module48 may generate a message reminding a user that the scheduled print jobwill be printed in X minutes. The message may optionally include a linkor other mechanism to allow the user to modify or delete the scheduledprint job prior to the scheduled print time. The user may modify ordelete the scheduled print job, for example, by accessing the webservice API module 42.

As discussed above, the message generated by the notification module 48may be sent to a user, for example, via an e-mail. Further, the messagemay be sent using a text messaging system such as SMS. In an alternativeembodiment, the message may be sent using an instant messaging servicesuch as the AOL®, Google®, Yahoo®, or Blackberry® instant messagingservices. The message may be addressed to a designated user by, forexample, e-mail address or IM identifier. Alternatively, the message maybe addressed to a designated user device by, for example, IP address,mobile phone number, home phone number, network identifier, etc. Theaddressing information may be included in the scheduled print job, ordetermined based on information such as a user ID included in thescheduled print job.

The e-mail server 50 may include an e-mail application 52 and an e-mailstorage 54. The e-mail application 52 is installed on the e-mail server50 and provides e-mail services. The e-mail server 50 may exchangeinformation with the client device 20, the scheduled print device 30,and/or other user device, using one or a variety of different protocols.The different protocols may include, for example, the Internet MessageAccess Protocol (IMAP), Post Office Protocol 3 (POP 3), Simple MailTransfer Protocol (SMTP), or the HTTP protocol. The e-mail storage 54stores e-mail messages addressed to one or more users.

However, it is noted that the e-mail server 50 is not required inembodiments in which the message generated by the notification module 48is not sent via e-mail. For example, when the message generated by thenotification module 48 is sent via SMS or IM the scheduled printingsystem may include a SMS service provider or IM service provider,respectively.

FIG. 4 depicts a computer system 70 in which embodiments of the clientdevice 20, the e-mail server 50, or other user device for receiving ascheduled print job status message may be implemented. The client device20, the e-mail server 50, or the other user device may be implementedin, for example, workstations, personal computers, laptop computers,personal digital assistants (PDAs), cellular telephone devices, or othermobile devices. The computer system 70 includes a bus B or othercommunication mechanism for communicating information such as addressinformation and data, and a CPU (or processor) 78 coupled with the bus Bfor processing the information. The computer system 70 also includes amemory unit (or main memory) 76, such as a random access memory (RAM) orother dynamic storage device (e.g., dynamic RAM (DRAM), static RAM(SRAM), and synchronous DRAM (SDRAM)), coupled to the bus B for storinginformation and instructions to be executed by the CPU 78. In addition,the memory unit 76 may be used for storing temporary variables or otherintermediate information during the execution of instructions by the CPU78. The computer system 70 may also further include a read only memory(ROM) or other static storage device (e.g., programmable ROM (PROM),erasable PROM (EPROM), and electrically erasable PROM (EEPROM)) coupledto the bus B for storing static information and instructions for the CPU78.

The computer system 70 may also include a disk controller coupled to thebus B to control one or more storage devices for storing information andinstructions, such as mass storage 74 which may be a hard disk drive,for example, and drive device 82 (e.g., floppy disk drive, read-onlyoptical disc drive, read/write optical disc drive, optical disc jukebox,tape drive, flash memory or a flash memory based drive, and removablemagneto-optical drive). The storage devices may be added to the computersystem 70 using an appropriate device interface (e.g., small computersystem interface (SCSI), integrated device electronics (IDE),enhanced-IDE (E-IDE), direct memory access (DMA), or ultra-DMA).

The computer system 70 may also include special purpose logic devices(e.g., application specific integrated circuits (ASICs)) or configurablelogic devices (e.g., simple programmable logic devices (SPLDs), complexprogrammable logic devices (CPLDs), and field programmable gate arrays(FPGAs)) in order to carry out the desired functionality.

The computer system 70 may also include a display controller coupled tothe bus B to control a display, such as a cathode ray tube (CRT),organic light emitting diode (OLED) display, liquid crystal display(LCD), or projector, for displaying information to a computer user. Thecomputer system 70 may include input devices, such as a keyboard,pointing device, or touch display, for interacting with a computer userand providing information to the CPU 78. The pointing device, forexample, may be a mouse, a trackball, or a pointing stick forcommunicating direction information and command selections to the CPU 78and for controlling cursor movement on the display. In addition, aprinter may provide printed listings of data stored and/or generated bythe computer system.

The computer system 70 performs a portion or all of the processing stepsin response to the CPU 78 executing one or more sequences of one or moreinstructions contained in a memory, such as the memory unit 76. Suchinstructions may be read into the memory unit 76 from anothercomputer-readable medium, such as the mass storage 74 or a removablemedia 72, One or more processors in a multi-processing arrangement mayalso be employed to execute the sequences of instructions contained inthe memory unit 76 or the removable media 72. In alternativeembodiments, hard-wired circuitry may be used in place of or incombination with software instructions. Thus, embodiments are notlimited to any specific combination of hardware circuitry and software.

As stated above, the computer system 70 includes at least one removablemedia 72, which is a computer-readable medium, or memory for holdinginstructions programmed according to the teachings described herein andfor containing data structures, tables, records, or other data describedherein. Examples of computer-readable media are compact discs, harddisks, floppy disks, tape, magneto-optical disks, PROMs (EPROM, EEPROM,flash EPROM), DRAM, SRAM, SDRAM, or any other magnetic medium, opticaldiscs (e.g., CD-ROM), or any other storage medium from which a computercan read.

Stored on any one or on a combination of computer-readable media issoftware for controlling the computer system 70, for driving a device ordevices, and for enabling the computer system 70 to interact with ahuman user. Such software may include, but is not limited to, devicedrivers, operating systems, development tools, and applicationssoftware. Such computer-readable media further includes the computerprogram product for performing all or a portion (if processing isdistributed) of the processing described herein.

The computer code devices may be any interpretable or executable codemechanism, including but not limited to scripts, interpretable programs,dynamic link libraries (DLLs), Java classes, and complete executableprograms. Moreover, parts of the processing may be distributed forbetter performance, reliability, and/or cost.

The term “computer-readable medium” as used herein refers to any mediumthat participates in providing instructions to the CPU 78 for execution.A computer-readable medium may take many forms, including but notlimited to, non-volatile media, and volatile media. Non-volatile mediaincludes, for example, optical, magnetic disks, and magneto-opticaldisks, such as the mass storage 74 or the removable media 72. Volatilemedia includes dynamic memory, such as the memory unit 76.

Various forms of computer-readable media may be involved in carrying outone or more sequences of one or more instructions to the CPU 78 forexecution. For example, the instructions may initially be carried on amagnetic disk of a remote computer. The remote computer can load theinstructions remotely into a dynamic memory and send the instructionsover a telephone line using a modem. A modem local to the computersystem 70 may receive the data on the telephone line and use an infraredtransmitter to convert the data to an infrared signal. An infrareddetector coupled to the bus B can receive the data carried in theinfrared signal and place the data on the bus B. The bus B carries thedata to the memory unit 76, from which the CPU 78 retrieves and executesthe instructions. The instructions received by the memory unit 76 mayoptionally be stored on mass storage 74 either before or after executionby the CPU 78.

The computer system 70 also includes a communication interface 80coupled to the bus B. The communication interface 80 provides two-waydata communication coupling to a network that is connected to, forexample, a LAN, or to another communications network such as theInternet. For example, the communication interface 80 may be a networkinterface card to attach to any packet switched LAN. As another example,the communication interface 80 may be an asymmetrical digital subscriberline (ADSL) card, an integrated services digital network (ISDN) card ora modem to provide a data communication connection to a correspondingtype of communications line. Wireless links may also be implemented. Inany such implementation, the communication interface 80 sends andreceives electrical, electromagnetic, or optical signals that carrydigital data streams representing various types of information. However,in other embodiments, the communication interface 80 may simply providefor one-way data communication.

The network typically provides data communication through one or morenetworks to other data devices. For example, the network may provide aconnection to another computer through a local network (e.g., a LAN) orthrough equipment operated by a service provider, which providescommunication services through a communications network. The localnetwork and the communications network use, for example, electrical,electromagnetic, or optical signals that carry digital data streams, andthe associated physical layer (e.g., CAT 5 cable, CAT 6 cable, coaxialcable, optical fiber, etc.). The signals through the various networksand the signals on the network and through the communication interface80, which carry the digital data to and from the computer system 70, maybe implemented in baseband signals, or carrier wave based signals. Thebaseband signals convey the digital data as unmodulated electricalpulses that are descriptive of a stream of digital data bits, where theterm “bits” is to be construed broadly to mean symbol, where each symbolconveys at least one or more information bits. The digital data may alsobe used to modulate a carrier wave, such as with amplitude, phase and/orfrequency shift keyed signals that are propagated over a conductivemedia, or transmitted as electromagnetic waves through a propagationmedium, Thus, the digital data may be sent as un-modulated baseband datathrough a “wired” communication channel and/or sent within a specifiedfrequency band, different than baseband, by modulating a carrier wave.The computer system 70 can transmit and receive data, including programcode, through the network and the communication interface 80. Moreover,the network may provide a connection to a mobile device such as apersonal digital assistant (PDA) laptop computer, or cellular telephone.

Alternatively, the client device 20 may be implemented in a digitalcopier/printer multi-function machine (MFP), as further discussed below.For example, the client device 20 may capture an image, which istransmitted to the scheduled print device 30 for printing. In otherembodiments, the scheduled print job may he requested at the scheduledprint device 30.

FIG. 5A depicts an example mechanical layout of the normal print device26 and/or scheduled print device 30 depicted in FIG. 2, which maycorrespond to a digital copier/printer multi-function machine (MFP). InFIG. 5A, 101 is a fan for the scanner, 102 is a polygon mirror used witha laser printer, and 103 designates an F theta lens used to collimatelight from a laser. Reference number 104 designates a sensor fordetecting light from the scanner, 105 is a lens for focusing light fromthe scanner onto the sensor 104 and 106 is a quenching lamp used toerase images on the photoconductive drum 132. There is a charging coronaunit 107 and a developer roller 108. Reference numeral 109 designates alamp used to depict a document to be scanned and 110, 111, and 112designate mirrors used to reflect light onto the sensor 104. There is adrum mirror 113 used to reflect light to the photoconductive drum 132originating from the polygon mirror 102. Reference numeral 114designates a fan used to cool the charging area of the normal printdevice 26 and/or scheduled print device 30, and 115 is a first paperfeed roller used for feeding paper from the first paper cassette 117,and 116 is a manual feed table. Similarly, element 118 is a second paperfeed roller for the second cassette 119. Reference numeral 120designates a relay roller, 121 is a registration roller, 122 is an imagedensity sensor, and 123 is a transfer/separation corona unit. Referencenumeral 124 is a cleaning unit, 125 is a vacuum fan, element 126 is atransport belt, 127 is a pressure roller, and 128 is an exit roller.Reference numeral 129 is a hot roller used to fix toner onto the paper,130 is an exhaust fan, and 131 is the main motor used to drive thedigital copier/printer multi-function machine.

FIG. 5B depicts an example block diagram of the electronic components ofthe normal print device 26 and/or scheduled print device 30 depicted inFIG. 5A. The CPU 160 is a microprocessor and acts as the systemcontroller. There is a random access memory (RAM) 162 to storedynamically changing information including operating parameters of thedigital copiers. A read-only memory (ROM) 164 stores the program codeused to run the normal print device 26 and/or scheduled print device 30and also information describing the static-state data such as modelnumber, serial number, and default parameters that would not change overthe life of the machine. When the device needs to boot up from either ahard disk or flash memory, the ROM memory 164 stores the boot sequence.

Similar to the computer system 70 discussed above, the normal printdevice 26 and/or scheduled print device 30 may perform a portion of orall processing steps in response to the CPU 160 executing one or moresequences of one or more instructions contained in a memory, such as theROM 164 or of one of the memory types discussed above with respect tothe computer system 70. The instructions may be read into the memoryfrom another computer-readable medium, as discussed above, such as massstorage or removable media. One or more processors in a multi-processingarrangement may also be employed to execute the sequences ofinstructions contained in the memory. In alternative embodiments,hardwired circuitry may be used in place of or in combination withsoftware instructions. Thus, embodiments are not limited to any specificcombination of hardware circuitry and software.

There is provided a multi-port communication interface 166, which allowsthe normal print device 26 and/or scheduled print device 30 tocommunicate with external devices. Reference numeral 168 represents atelephone or other communication line including a wireless channel.Reference number 170 represents a wired communication line, such as awired telephone or Ethernet connection. Further information of themulti-port communication interface is described with respect to FIG. 5C.An interface controller 172 is used to connect an operation panel 174 toa system bus 186. The operation panel 174 includes standard input andoutput devices found on a digital copier/printer multi-function machineor business office appliance including some function buttons such asreduce/enlarge and numeric buttons, etc. Additionally, a liquid crystaldisplay, or other displays as discussed above, may be included withinthe operation panel 174 to display parameters and messages of theapparatus. The operation panel also can be a touch panel in which thedisplay and function buttons may change according to the context.

A local connection interface 171 is a connection through a local portsuch as RS232, USB and IEEE 1394. This interface 171 allows externaldevices to be attached to the apparatus.

A storage interface 176 connects storage devices to the system bus 186.The storage devices include a flash memory 178 and a disk 182. There isa connection 180 connected to the storage interface 176 which allows foradditional memory devices to be connected. The flash memory 178 is usedto store semi-static data which describes parameters of the device whichinfrequently change over the life of the apparatus, including the optionconfiguration, network access parameters, and work group, and also canbe used to store dynamic data that describes parameters dynamicallychanging such as print count. An option interface 184 allows additionaloption devices to be attached and controlled. A clock/timer 187 isutilized to keep track of both the time and date and also to measureelapsed time.

On the left side of FIG. 5B, the various sections making up the normalprint device 26 and/or scheduled print device 30 are depicted. Referencenumeral 202 designates a sorter and contains sensors and actuators usedto sort the output of the flotilla] print device 26 and/or scheduledprint device 30. There is a duplexer 200 that allows a duplex operationto be performed and includes conventional sensors and actuators. Thenormal print device 26 and/or scheduled print device 30 includes a largecapacity tray unit 198 that allows paper trays holding a large number ofsheets to be used. The large capacity tray unit 198 includesconventional sensors and actuators.

A paper feed controller 196 is used to control the operation of feedingpaper into and through the normal print device 26 and/or scheduled printdevice 30. A scanner 194 is used to scan images into the normal printdevice 26 and/or scheduled print device 30 and includes a control systemof conventional scanning elements such as a light, mirror, etc.Additionally, scanner sensors are used, such as a home position sensor,to determine that the scanner is in the home position, and a lampthermistor is used to ensure proper operation of the scanning lamp.There is a printer/imager 192, which prints the output of the normalprint device 26 and/or scheduled print device 30 and includes aconventional laser printing mechanism, a toner sensor, and an imagedensity sensor. The fuser 190 is used to fuse the toner onto the pageusing a high temperature roller and includes an exit sensor, athermistor to assure that the fuser 190 is not over heating, and an oilsensor. Additionally, there is an optional unit interface 188 used toconnect optional units such as an automatic document feeder, a differenttype of sorter/collator, or other elements that can be added to thenormal print device 26 and/or scheduled print device 30.

FIG. 5C depicts details of the multi-port network interface 166. Thenormal print device 26 and/or scheduled print device 30 may communicateto external devices through a Token Ring interface 220, a cable modemunit 222 that has a high speed connection over cable, a conventionaltelephone interface 224 that connects to a telephone line 168, awireless interface 228, and an Ethernet interface 230. Other interfaces(not depicted) include, but are not limited to, a Digital Subscriberline. The multi-port network interface does not need to have all theinterfaces described in FIG. 5C.

The CPU or other microprocessor or circuitry executes a monitoringprocess to monitor the state of each of the sensors of the normal printdevice 26 and/or scheduled print device 30, and a sequencing process isused to execute the instructions of the code used to control and operatethe normal print device 26 and/or scheduled print device 30.Additionally, there is (1) a central system control process executed tocontrol the overall operation of the normal print device 26 and/orscheduled print device 30 and (2) a communication process used to assurereliable communication to external devices connected to the flotilla'print device 26 and/or scheduled print device 30. The system controlprocess monitors and controls data storage in a static state (e.g., theROM 164 of FIG. 5B), a semi-static state (e.g., the flash memory or disk182), or a dynamic state (e.g., a volatile or non-volatile memory, theRAM 162 or the flash memory 178 or disk 182).

The above details have been described with respect to a digitalcopier/printer multi-function machine, but this embodiment is equallyapplicable to other business office machines or devices such as ananalog copier, a facsimile machine, a printer, a facsimile server, orother business office machines and business office appliances that areconfigured to store data for future processing.

FIG. 5D depicts a flow diagram that depicts example communicationsbetween electronic components in an example embodiment of the scheduledprint device 30. As depicted in FIG. 5D, a network control service (NCS)254 receives a print job from the printer driver 24 of the client device20, which is connected to a TCP port (e.g., port 9100) of the scheduledprint device 30. The print job may include schedule data (e.g., defininga scheduled print time and/or date) generated by the printer driver 24.Alternatively, the schedule data includes information for the scheduledprint device 30 to automatically determine the scheduled print timeand/or date. The NCS 254 includes Diprint 9100 module 266, whichmonitors port 9100 for TCP print jobs from the client device 20, andcontrols communications over the network. However, in alternateembodiments, the Diprint 9100 module 266 may be configured to monitorone or more other port numbers. After receiving the print job, the NCS254 transfers the print job to print system/printer description language(PDL) interpreter 256, which forwards the print job to the scheduledprint job filter/encryption module 258. The scheduled print jobfilter/encryption module 258 determines if the print job is a scheduledprint job. For example, the print job may include one or more Print JobLanguage (PJL) or PDL commands/comments that specify scheduled printingis to be used. Alternatively, the print job may be determined to be ascheduled print job based on the inclusion of schedule data. If theprint job is a scheduled print job, the scheduled print jobfilter/encryption module 258 stores the print job in Job DB 260. Thescheduled print job filter/encryption module 258 may optionally encryptthe print job prior to storing the print job in the Job DB 260. Further,a job scheduler 262 maintains a job schedule database of any scheduledprint jobs stored in the scheduled print device 30, and schedules theexecution of the scheduled print job stored in the Job DB 260 andexecutes the scheduled print job at the appropriate time.

Further, the scheduled print job filter/encryption module 258 extractse-mail and/or mobile phone number information from the print job. Thescheduled print job filter/encryption module 258 sends the extractede-mail information to an SMTP client module 264, which e-mails scheduledprint job status information based on the extracted email information,and the extracted mobile phone number information to SMS module 266,which sends a text message including the scheduled print job statusinformation based on the extracted mobile phone number information. Ifthe scheduled print job filter/encryption module 258 determines that theprint job is not a scheduled print job, the scheduled print jobfilter/encryption module 258 returns the print job to the printsystem/PDL interpreter 256, which interprets print data, e.g., PDL dataincluded in the print job, and prints the print data associated with theprint job. In one embodiment, the SMTP client module 264 and the SMSmodule 266 are included in the job scheduler 262. Alternatively, theSMTP client module 264 and/or the SMS module 266 may be providedseparate from the job scheduler 262.

An operation panel user interface module 252 is configured to provide aninterface for a user to access scheduled print jobs stored in thescheduled print device 30. When the user operates the operation paneluser interface module 252, the user enters a user ID and correspondingauthentication information. FIG. 11A depicts an example interface forthe user to enter the user ID and corresponding authenticationinformation. In other embodiments, a user may access the scheduled printjobs through other authenticating methods that may be based on theuser's voice, biometric information, etc. After the user ID and theauthentication information are inputted by the user, or the user isauthenticated by other methods, the operation panel user interfacemodule 252 retrieves scheduled print jobs associated with the user fromthe Job DB 260. In one embodiment, the scheduled print jobs areretrieved according to a user ID.

The retrieved scheduled print jobs are displayed to the user, forexample, as depicted in FIG. 11B. After one or more scheduled print jobsare selected by the user, the operation panel user interface module 252performs a user requested action on the selected one or more scheduledprint jobs. For example, when the user requests that one or morescheduled print jobs be printed immediately, the operation panel userinterface module 252 pulls the selected one or more scheduled print jobsfrom the Job DB 260 and sends the one or more scheduled print jobs tothe Diprint 9100 module 266. The Diprint 9100 module 266 forwards theone or more print jobs to the print system/PDL interpreter 256, whichprints the print data associated with the one or more scheduled printjobs. When, the print system/PDL interpreter 256 is aware that the printjob is not a scheduled print job, the print job may be printed withoutbeing forwarded to the scheduled print job filter/encryption module 258.Further, the user may request that the one or more scheduled print jobsbe deleted or modified, as further discussed below.

The scheduled print web configuration module 270 and the web service APImodule 272 may connect to a user application or an administratorapplication using the hypertext transfer protocol (HTTP) or thehypertext transfer protocol secure (HTTPS). However, in otherembodiments, the user application or the administrator application mayconnect to the scheduled print web configuration module 270 and the webservice API module 272 using other communication protocols such as thefile transfer protocol (FTP), the simple object access protocol (SOAP),or representational state transfer (REST). As discussed above, the userapplication or the administrator application may connect to thescheduled print web configuration module 270 and the web service APImodule 272 to manage (e.g., configuration information, edit or deletescheduled print jobs, etc.) the scheduled print device 30 or thescheduled print jobs stored therein, or to access status informationsuch as a job log and error log stored on the scheduled print device 30.As noted above, in one embodiment, the scheduled print jobs may bemanaged using the user interfaces depicted in FIGS. 16A-16D.

FIG. 6 provides an overview of an example process for a scheduled printprocess. In step S602, the client device 20 transmits a request to printa scheduled print job to the scheduled print device 30. The scheduledprint job request includes print data and schedule data corresponding toa scheduled print time. Alternatively, the schedule data may be providedseparately from the print data. In one embodiment, the schedule datadefines a time and/or date on which the scheduled print job is to beprinted. In other embodiments, the scheduled print device 30 determinesthe time and/or date on which the scheduled print job is to be printedbased on the schedule data. For example, the schedule data maycorrespond to an identifier (e.g., user ID) used by the scheduled printdevice 30 to identify a specified time and/or date (e.g., 2 pm) on whichthe print job is to be printed.

In step S604, the scheduled print device 30 receives the request toprint the scheduled print job from the client device 20. The scheduledprint device 30 stores the received scheduled print job in memory, instep S606. In step S608, the scheduled print device executes thescheduled print job at the scheduled time. The scheduled print device30, in step S610, determines whether the scheduled print job was printedsuccessfully. After determining whether the scheduled print job wasprinted successfully, the scheduled print device 30 sends a messageindicating whether the scheduled print job was printed successfully to aspecified device, or user, such as the client device 20 or other deviceassociated with a user designated to receive the message.

FIG. 7 depicts an example process performed by the client device 20. Instep S702, the client device 20 receives a scheduled print request froma user of the client device 20. In response to the scheduled printrequest, the client device 20 generates a request to print a scheduledprint job, including print data and scheduled data, and transmits thescheduled print job request, in step S704. The scheduled print jobrequest may be generated, for example, in response to a command to printa document using a word processing application. Further, in step S706,the client device 20 and/or other specified device receives a messageindicating whether the scheduled print job was completed successfully.

FIG. 8 depicts an example process performed by the scheduled printdevice 30. As depicted in FIG. 8, in step S802, the scheduled printdevice 30 receives the request to print a scheduled print job, includingprint data and schedule data corresponding to a scheduled print time. Asnoted above, the schedule data may define a time and/or date at whichtime the scheduled print job is to be printed. Alternatively, theschedule data may be used by the scheduled print device 30 toautomatically determine a scheduled print time. The scheduled print jobis stored in memory, in step S804, and executed at the scheduled time,in step S806. The scheduled print device 30 determines whether thescheduled print job was printed successfully, in step S808, and sends amessage indicating whether the scheduled print job was printedsuccessfully to a specified device, or user, in step S810.

FIGS. 9A-9D depict example user interfaces for requesting a scheduledprint job. For example, a Print window 900 is displayed to a user of theclient device 20. The user selects a printer, such as scheduled printdevice 30, to process a print job in a dropdown window 902. If the userselects the properties button 904, a Printing Preferences window 920, asdepicted in FIG. 9B, is displayed. The Printing Preferences window 920allows the user to define several printing options, including whetherthe print job is to be of the scheduled print type in a drop down window922. For print jobs of the scheduled print type, the user may definefurther details by, for example, selecting the details button 924. Whenthe user selects the details button 924, a Scheduled Print Detailswindow 960 is displayed.

The Scheduled Print Details window 960 includes a user ID field 962,password field 964, e-mail address field 968, mobile number field 970,scheduled date field 972, scheduled time field 974, distribute selectionbox 976, and details button 978. A user may access the scheduled printapplication 32 on the scheduled print device 30 using the user ID and/orpassword entered into user ID field 962 and password field 964,respectively. The e-mail address field 968 and mobile number field 970,when provided with appropriate information, are used by the scheduledprint device 30 to provide job status notifications to a specifieddevice or designated user. The scheduled date and time fields 972 and974, define the date and time when the scheduled print job should beprinted. Further, the distribute selection box 976 enables jobdistribution to selected one or more printing devices (e.g., normalprint devices 26 a-26 c). The one or more printing devices may bedesignated, for example, by selecting details button 978, which causes aScheduled Print Distribute Details window 980 to be displayed to theuser. In the Scheduled Print Distribute Details window, fields 982 a-982j are provided for printers 1-10, respectively, to which the scheduledprint job may be distributed. However, other embodiments may providefields for one or more printers, not limited to ten printers. Theprinters may be designated using an IP address, host name, or any otherinformation used by the scheduled print device 30 to address theprinters. Further, the information identifying the printers may bemanually entered into the printer fields 982 a-982 j, selected from alist of available printers, or automatically populated based onspecified criteria such as user ID. When communication methods otherthan e-mail or SMS are employed for the providing the scheduled printjob notifications, the e-mail address filed and/or mobile number fields968 and 970 can be modified to accept information for sending thescheduled print job notifications according to the other communicationmethods.

FIG. 10 depicts an example set of PJL commands/comments generated by theprinter driver 24 for the scheduled print request. As depicted in FIG.10, the PJL commands include information regarding the print job type,user ID, e-mail address, password, mobile number, time at which theprint job is scheduled, date at which the print job is scheduled, and IPaddresses or host names of printers to which the print job is to bedistributed. The PJL commands/comments are processed by the scheduledprint device 30, as discussed with respect to FIG. 13.

FIGS. 11A-11C depict example user interfaces for managing one or morescheduled print jobs at the scheduled print device 30. For example,initially a User Login window 1100 is displayed on an operation panel ofthe scheduled print device 30. The User Login window 1100 includes auser ID field 1102 and password field 1104. After user ID and passwordinformation entered by a user is authenticated, the operational panel ofthe scheduled print device 30 displays a Scheduled Print Job Managementwindow 1110. The Scheduled Print Job Management window 1110 displays anyscheduled print jobs associated with the authenticated user. When thelisting of scheduled print jobs cannot be displayed in a single window,the user may user next and previous buttons 1114 and 1116 to navigate todifferent pages of the listing. Using selection boxes 1112 a-1112 d, theuser may select one or more scheduled print jobs to manage. The user maydelete one or more of the scheduled print jobs by selecting deletebutton 1118. Selection of the delete button 1118 deletes the scheduledprint job from the memory of the scheduled print device 30 and ascheduled job database. A user may edit one or more of the scheduledprint jobs by selecting edit button 1120. Selection of the edit button1120 causes an Edit Schedule and Distribution Details window 1130, forexample as depicted in FIG. 11C, to be displayed to the user. Selectionof the print button 1122 causes the selected scheduled print jobs to beprinted. Using the Edit Schedule and Distribution Details window 1130,the user may enter a new scheduled print date or time using fields 1132and 1134, respectively. Further, the user may designate one or moreprinters to which the scheduled print job should be distributed usingany one of fields 1136 a-1136 j. After the user enters any desiredchanges to the print schedule or distribution, the user selects applybutton 1138 to save any changes. Alternatively, any changes mayautomatically be saved when the user exits the Edit Schedule andDistribution Details window 1130.

FIG. 12A depicts an example scheduled print job database schema. Asdepicted in FIG. 12A, a scheduled job database includes a table ofentries for each scheduled print job stored in the scheduled printdevice 30. The scheduled job database may include one or a combinationof the entries depicted in FIG. 12A. A description of the informationdefined in the scheduled job database is depicted in FIG. 12B. Forexample, each entry in the scheduled job database is identified by aunique job identifier (i.e., a private key). The scheduled print jobentry further includes a UserID and password, which correspond to theuser ID and password included in the scheduled print job requestgenerated by printer driver 24. A TimeStamp indicates the time thescheduled print job was received by the scheduled print device 30. Thescheduled print job entry also includes ScheduleTime and ScheduleDatewhich define the time and date the scheduled print job is to be printed,and a PageCount which defines the number of pages to be printed.JobName, EmailID, and MobileNumber correspond to the job name, e-mailaddress, and mobile number sent from the printer driver 24.PrinterAddress1-PrinterAddress10 correspond to the information sent fromthe printer driver 24 if the distribute option was selected and at leastone printer address or host name provided to the printer driver 24.

FIG. 13 depicts an embodiment for processing a print job received by thescheduled print device 30. The print job may include PJLcommands/comments that are generated by the printer driver 24 of theclient device 20. An example set of PJL commands/comments generated bythe printer driver 24 is depicted in FIG. 10. As depicted in FIG. 13,the scheduled print device 30 identifies the number of pages in thereceived print job, in step S1302. In step S1304, the scheduled printdevice 30 determines whether the print job is a scheduled print job by,for example, determining whether the PJL commands/comments associatedwith the print job includes “PDL SCHEDULEJOB”. Alternatively, thescheduled print device 30 determines whether the print job is ascheduled print job based off other specified information stored in thePJL commands/comments. If the print job is determined not to be ascheduled print job, the scheduled print device 30 determines whetherthe number of pages in the print job exceeds a threshold for immediateprint, in step S1306. When the number of pages in the print job does notexceed the threshold for immediate print, the print job is sent to theprint system for printing, in step S1308. However, when the number ofpages in the print job exceed the threshold for immediate print, in stepS1310, the print job is scheduled for off peak printing, and jobinformation corresponding to the print job is created and stored into aJob Schedule Database.

On the other hand, when the print job is a scheduled print job, thescheduled print device 30 parses the PJL commands/comments that aregenerated by the printer driver 24 of the client device 20, in stepS1312. In step S1314, a unique JobID is created and job informationcorresponding to the print job is stored into the Job Schedule Database.After the job information corresponding to the print job is stored insteps S1310 or S1314, the print job is encrypted and stored in thescheduled print device 30. Further, the scheduled print job is added tothe job scheduler of the scheduled print device 30. In step 1316, theprint job is encrypted and stored, and provided to the job scheduler.

FIG. 14 depicts a process performed by an example embodiment of the JobScheduler included in the scheduled print device 30. The Job Schedulermanages the execution of a print job execution thread for a scheduledprint job, at the scheduled time. In one embodiment, the Job Schedulersteps through a scheduled job list that has been sorted based on ascheduled date and time for printing. If the current time is equal to orgreater than the scheduled time corresponding to a scheduled print job,the Job Scheduler starts a new thread to execute the scheduled print jobin the scheduled job list. A job execution thread then handles the jobprinting process.

For example, the Job Scheduler accesses the scheduled job list in stepS1402, and retrieves a scheduled print job from the scheduled job listin step S1404. The Job Scheduler determines whether the current time isgreater than or equal to the scheduled time for printing the scheduledprint job, in step S1406. If the current time is greater than or equalto the scheduled time, a job execution thread for the scheduled printjob is started, and the scheduled print job is removed from thescheduled job list, in step S1408. If the current time is determined tobe less than the scheduled time in step S1406, or after the jobexecution thread is executed in step S1408, the Job Scheduler sleeps fora specified period of time (e.g., one minute) in step S1410. Aftersleeping for the specified period of time in step S1410, the JobScheduler repeats the process beginning at step S1402.

FIG. 15 depicts a process for executing the scheduled print job. Forexample, a job execution thread performs execution of the scheduledprint job according to scheduled job attributes related to the scheduledprint job. For example, in step S1402, the job execution thread readsthe scheduled job attributes. The scheduled job attributes may include aJob ID which is used to fetch a scheduled print job from the storage 44;a user e-mail which is used by the notification module 48 to send ane-mail including status information; a mobile number which is used bythe notification module 48 to send a text message including the statusinformation; and distribute job printer addresses, if available, whichare used by the scheduled print device 30 to forward the print job forprinting by one or more printers identified by the distribute jobprinter addresses.

In step S1504, the scheduled print job is sent to local host port 9100(e.g., DiPrint 9100 depicted in FIG. 5D). In step S1506, the jobexecution thread determines whether the scheduled print job wascompleted successfully. If the scheduled print job is completedsuccessfully, the job execution thread determines whether the scheduledprint job is to be distributed to any other printing devices, in stepS1508. For example, the job execution thread determines whether thescheduled job attributes include at least one printing device address orhost name to which the scheduled print job should be distributed. If thescheduled job attributes is determined to include at least one printingdevice address or host name, the scheduled print job sent to port 9100of each of the at least one printing devices, in step S1510. In stepS1512, an e-mail and/or text message indicating whether the scheduledprint job was printed successfully is created and sent. After creatingand sending the e-mail and/or text message, the scheduled print job isdeleted in step S1514.

On the other hand, if the print job is determined not to have beencompleted in step S1506, the job execution thread determines whether anerror occurred while printing the scheduled print job, in step S1516. Ifan error did not occur while printing the scheduled print job, the jobexecution thread returns to step S1506, at which time the job executionthread again determines whether the print job has been completed.However, if an error is determined to have occurred in step S1516, thejob execution thread determines whether an alternate printer forprinting the scheduled print job exists, in step S1518. If an alternateprinter does not exist, in step S1520, a notification may optionally besent to an administrator or any other designated party. If an alternateprinter does exist, then in step S1522, the scheduled print job is sentto port 9100 of the alternate printer. The process then proceeds to stepS1508, as discussed above.

FIGS. 16A-16D depict example interfaces used for scheduled printadministration. Using the example interfaces of FIGS. 16A-16D, anadministrator can manage the scheduled print application 32 of thescheduled print device 30, through a Web interface. Using the Webinterface, the administrator can access various features including (1)viewing scheduled print jobs, (2) setting a threshold of pages forimmediate print, such that a print job is scheduled to print during offpeak hours, (3) setting an off peak hours schedule, (4) set a list ofone or more alternate printers if an error occurs while printing ascheduled print job, (5) viewing error logs, and (6) viewing scheduledjob logs.

An example Scheduled Print Configuration screen is depicted in FIG. 16A.In FIG. 16A, the administrator may input the threshold of pages forimmediate print (e.g., 100 pages). Further, the administrator may enteran alternate printer address (e.g., 172.30.2.220), administrator orother designated party e-mail address (e.g., admin@acme.com), and defineoff peak hours (e.g., 7:00 PM to 6:00 AM). However, it should be notedthat the Scheduled Print Configuration screen is not so limited. Forexample, the page threshold may be defined by other informationindicative of resources used for printing a scheduled print job such asan estimated print time, toner requirements, resolution requirements,etc. Further, the administrator may optionally define a plurality ofalternate printer addresses, administrator or designated party e-mailaddresses, or off peak hours. Alternatively, the off peak hours may beautomatically determined based on printing history information or thelike.

FIG. 16B depicts an example Scheduled Print Job List screen, whichdisplays a list of scheduled print jobs. FIG. 16C depicts an exampleScheduled Print Job Log screen, which displays a list of executedscheduled print jobs. Further, FIG. 16D depicts an example ScheduledPrint Error Log screen, which displays a list of any errors thatoccurred during execution of the scheduled print jobs.

FIG. 17 depicts an example system in which an Administrator Dashboard1700 is connected to a plurality of scheduled print devices 30 a-30 cover a network, such as the network 12 discussed above. Each of thescheduled print devices 30 a-30 c include a scheduled print application32 that provides web service APIs for a web client application (e.g.,the Administrator Dashboard) to collect information about the scheduledprint jobs of the respective scheduled print devices 30A-30C. Thepurpose of the web service API is to expose scheduled print related datasuch as scheduled print job information. The web service APIs can beaccessed via the Internet (e.g., using HTTP or HTTPS) in the form of GETor POST methods. With these APIs, the client side application can bedeveloped to consolidate data from the plurality of scheduled printdevices 30 a-30 e to gather scheduled print related data.

For example, the web service API can be accessed via the Internet usinga uniform resource locator (URL) such as

-   -   http://<IPAddress>/scheduledprint/webapi        Where <IPAddress> is the IP address or name of the scheduled        print device 30 on which the scheduled print related data is        requested.

In one embodiment, the web service API accepts the following parameters:(1) command and (2) clientid, which are mandatory parameters. Forexample, the Administrator Dashboard 1700 may access scheduled jobinformation of a scheduled print device 30 using the following request:

http://<IPAddress>/scheduledprint/webapi?command=scheduledjobs   &clientid=askeelrrogicklsllakfk134dIn an example embodiment, the command “scheduledjobs” corresponds to arequest to return scheduled print job information as XML. The“clientid”, which is also known as an API Key, is used to validate aclient's access to the web service API. Generally, the Client ID (APIKey) is distributed to an application developer who wants to develop anapplication using the web service API.

In response to a web service API request, the web service API of thescheduled print device 30 processes the request and returns a webservice API response. FIG. 18 depicts an example generic XML message,included in the web service API response, that is returned to theAdministrator Dashboard 1700 when the command submitted with the webservice API request is invalid. FIG. 19 depicts additional exampleresponse codes and their corresponding descriptions.

In FIG. 18, the <command/> is a generic example, and depends on theactual command requested. In one example, if the command is“scheduledjobs”, then the response depicted in FIG. 18 would be modifiedas follows:

<ScheduledPrintApiResponse>   <command>scheduledjobs</command>  <responseCode>0</responseCode>   <message>Success</message>  <commandResponse /> </ScheduledPrintApiResponse>

In the above example response, the <commandResponse i> is a genericexample. An example of the actual information included in the exampleweb service API response for the command “scheduledjobs” is depicted inFIG. 20.

FIG. 21 depicts a system overview of an example scheduled printingsystem with cloud storage. The system includes printing devices 26 a-26c, 30, client devices 20 a, 20 b, email server 50, and cloud storage 10all coupled to each other over a network 12. Printing devices 26 a-26 care normal printing devices and printing device 30 is a scheduledprinting device, which is a device on which a scheduled printapplication is deployed. Client devices 20 a, 20 b are used to submitprint jobs of an immediate print type or a scheduled print type. E-mailserver 50 allows the scheduled print device 30 to send print job statusinformation back to a user via e-mail. Cloud storage 10 allows printjobs to be stored and retrieved for used by the scheduled printingsystem.

In operation when a client device 20 submits a scheduled print job, theprint job is submitted along with scheduled print related commands and atime and/or date at which the print job is to be printed. During and atthe end of the job, email server 50 sends status information back to theuser. The normal print devices 26 a-26 c allow the print job to bedistributed based on a command within the print job, or to which printjobs can be routed in case there is an error in the scheduled printdevice while printing a scheduled print job.

FIG. 22 depicts a flow diagram among electronic components in an exampleembodiment of the scheduled print device 30. The components include anetwork control service (NCS) 254, a Print System/PDL interpreter 256, aScheduled Print Job Filter/Encryption module 2202, a Job database (DB)260, a Job Scheduler 2204, an Operation Panel User Interface Module 252,a Scheduled Print Web Configuration Module 270, and a Web Service APImodule 272. In one embodiment, the Job Scheduler 2204 includes a SMTPclient module 264 and a SMS module 266. In another embodiment, the SMTPclient module 264 and/or the SMS module 266 are separate from the JobScheduler 2204.

The NCS 254 is coupled to the Print System/PDL interpreter and theOperation Panel User Interface Module 252 and includes Diprint 9100Module 266 which receives information from the Job Scheduler 2204. ThePrint System/PDL Interpreter 256 is additionally coupled to theScheduled Print Job Filter/Encryption Module 2202. The Schedule PrintJob Filter/Encryption Module 2202 is additionally coupled to the Job DB260 and the Cloud Storage. The Job DB is additionally coupled to theOperation Panel User Interface Module 252, the Job Scheduler 2204, andthe Web Configuration module 270 and Web Service API module 272. The JobScheduler 2204 is additionally coupled to Cloud Storage 10 in FIG. 21.The Simple Mail Transfer Protocol (SMTP) client module 264 and/or theShort Message Service (SMS) module 266.

In operation, the NCS 254 receives a print job from the printer driver24 of the client device 20, which is connected to a TCP port (e.g., port9100) of the scheduled print device 30. After receiving the print job,the NCS 254 transfers the print job to the Print System/PDL Interpreter256, which forwards the print job to the Scheduled Print JobFilter/Encryption Module 2202. The Scheduled Print Job Filter/Encryptionmodule 2202 determines whether or not the print job is a scheduled printjob. If the print job is determined to be a scheduled print job based oninclusion of scheduled data, then the Scheduled Print JobFilter/Encryption Module 2202 stores the print job in the Job DB 260 orin Cloud Storage 10, depending on instructions in the print job controllanguage (PJL). In another embodiment, the Scheduled Print JobFilter/Encryption module 2202 encrypts the print job and stores theencrypted print job in the local storage (Job DB) 260 or in CloudStorage depending on instructions in the print job control language(PJL).

Job Scheduler 2204 accesses the Job DB 260 or Cloud Storage 10,depending on the job information for the particular scheduled job, toobtain the stored print job and adds the print job to its own list ofprint jobs stored in the Job DB 260 of scheduled print device 30. JobScheduler 2204 then executes the scheduled print job at the appropriatetime based upon job information for the scheduled print job and datafrom a real time clock 268.

If the scheduled print job filter/encryption module 258 determines thatthe print job is not a scheduled print job, then the scheduled print jobfilter/encryption module 258 returns the print job to the PrintSystem/PDL interpreter 256, which interprets the print data, i.e., thePDL data included in the print job and prints the print data associatedwith the print job.

The Scheduled Print Job filter/Encryption Module 2202 extracts e-mailand/or mobile phone number information from the print job and sends theextracted e-mail information to the SMTP client module 264. Based on theextracted email information and the extracted mobile phone numberinformation, the SMPT client module 264 uses an API, which accepts arecipient's email ID, to send e-mails with scheduled print job statusinformation to the SMS module 266, which sends a text message includingthe scheduled print job status information based on the extracted mobilephone number information.

The Operation Panel User Interface Module 252 is configured to providean interface for a user to access scheduled print jobs stored in thescheduled print device 30. When the user operates the Operation PanelUser Interface Module 252, the user enters a user ID and correspondingauthentication information. FIG. 11A depicts an example interface forthe user to enter the user ID and corresponding authenticationinformation. In other embodiments, a user accesses the scheduled printjobs through other authenticating methods that may be based on theuser's voice and/or biometric information. After the user provides theuser ID and the authentication information, or the user is authenticatedby other methods, Operation Panel User Interface Module 252 retrievesscheduled print jobs associated with the user from the Job DB 260. Inone embodiment, the scheduled print jobs are retrieved according to auser ID.

The retrieved scheduled print jobs are displayed to the user, forexample, as depicted in FIG. 11B. After the user selects one or morescheduled print jobs, the Operation Panel User Interface Module 252performs a user requested action on the selected one or more scheduledprint jobs. For example, when the user requests that one or morescheduled print jobs be printed immediately, the Operation Panel UserInterface Module 252 pulls the selected one or more scheduled print jobsfrom the Job DB 260 and sends the one or more scheduled print jobs tothe Diprint 9100 module 266. The Diprint 9100 module 266 forwards theone or more print jobs to the print system/PDL interpreter 256, whichprints the print data associated with the one or more scheduled printjobs. When the print system/PDL interpreter 256 is aware that the printjob is not a scheduled print job, the print job is printed without beingforwarded to the scheduled print job filter/encryption module 258.Further, the user may request that the one or more scheduled print jobsbe deleted or modified, as previously described.

The a Scheduled Print Web Configuration Module 270 and the Web ServiceAPI Module 272 connects to a user application or an administratorapplication using the hypertext transfer protocol (HTTP) or thehypertext transfer protocol secure (HTTPS). However, in otherembodiments, the user application or the administrator applicationconnects to the Scheduled Print Web Configuration Module 270 and the WebService API Module 272 using other communication protocols such as thefile transfer protocol (FTP), the simple object access protocol (SOAP),or representational state transfer (REST). As discussed above, the userapplication or the administrator application connects to the scheduledprint web configuration module 270 and the web service API module 272 tomanage (e.g., configuration information, edit or delete scheduled printjobs, etc.) the scheduled print device 30 or the scheduled print jobsstored therein, or to access status information such as a job log anderror log stored on the scheduled print device 30. As noted above, inone embodiment, the scheduled print jobs can be managed using the userinterfaces depicted in FIGS. 16A-16D.

FIG. 23 depicts a client system 20 a, 20 b coupled to Cloud storage 10and Scheduled Print Device 30. In one embodiment, the client system 20a, 20 b runs an Application Program 2302, a Printer Driver 2304 and aScheduled Print Port Monitor 2306. In the embodiment, the ScheduledPrint Port Monitor is configured to send a Scheduled Print Job 2308 toCloud Storage 10 and Scheduled Print Job Attributes 2310 to theScheduled Print Device 30, instead of sending both the Scheduled PrintJob and Scheduled Print Job Attributes to Cloud Storage or to theScheduled Print Device.

FIG. 24 depicts a flow diagram among electronic components in theembodiment depicted in FIG. 23. Flow diagram 24 is the same as flowdiagram in FIG. 22, except that the Scheduled Print JobFilter/Encryption Module 2402 is not configured to store the print jobin Cloud Storage. Additionally, Job Scheduler 2404 is configured todownload the Print Job Attributes from Cloud storage, while obtainingthe Scheduled Print Job from local storage 260.

FIGS. 25A-25C depict example user interfaces for requesting a scheduledprint job. For example, in FIG. 25A, a Print window 900 is displayed toa user of the client device 20. The user selects a printer, such asscheduled print device 30, to process a print job in a dropdown window902. If the user selects the properties button 904, a PrintingPreferences window 920, as depicted in FIG. 25B, is displayed.

The Printing Preferences window 920 in FIG. 25B allows the user todefine several printing options, including whether the print job is tobe of the scheduled print type in a drop down window 922. For print jobsof the scheduled print type, the user may define further details by, forexample, selecting the details button 924. When the user selects thedetails button 924, a Scheduled Print Details window 960 is displayed.

The Scheduled Print Details window 960 depicted in FIG. 25C includes auser ID field 962, password field 964, e-mail address field 968, mobilenumber field 970, scheduled date field 972, scheduled time field 974,distribute selection box 976, and details button 978. A user may accessthe scheduled print application 32 on the scheduled print device 30using the user ID and/or password entered into user ID field 962 andpassword field 964, respectively. The e-mail address field 968 andmobile number field 970, when provided with appropriate information, areused by the scheduled print device 30 to provide job statusnotifications to a specified device or designated user. The scheduleddate field 972 and time field 974, define the date and time when thescheduled print job should be printed. The storage selection button 940indicates that the storage location of the print job is local storage(on the print device) and the storage selection button 942 indicatesthat the storage location of the print job is Cloud Storage. Based onthis selection, appropriate job control language commands are sent tothe printer. Further, the distribute selection box 976 enables jobdistribution to selected one or more printing devices (e.g., normalprint devices 26 a-26 c). The one or more printing devices may bedesignated, for example, by selecting details button 978, which causes aScheduled Print Distribute Details window 980 to be displayed to theuser.

FIG. 26A depicts an example scheduled print job database schema for eachscheduled print job stored in the scheduled print device 30 and FIG. 26Bgives a description of the information in the schema. Each entry in thescheduled job database is identified by a unique job identifier (i.e., aprivate key (PK), JobID)). The schema further includes a UserID andpassword, which correspond to the user ID and password included in thescheduled print job request generated by printer driver 24. A TimeStampindicates the time that the scheduled print device 30 received thescheduled print job. The ScheduleTime and ScheduleDate respectivelydefine the time and date that the scheduled print job is to be printed.The PageCount defines the number of pages to be printed. The JobName,EmailID, and MobileNumber respectively correspond to the job name,e-mail address, and mobile number sent from the printer driver 24.PrinterAddress1-PrinterAddress10 correspond to the information sent fromthe printer driver 24 if the distribute option was selected and at leastone printer address or host name provided to the printer driver 24.CloudStorage indicates whether the Scheduled print job needs to bestored on the printer or in Cloud Storage. CloudStorageInfo containsinformation stored by the Scheduled Print Job Filter Module relating tothe stored job such as at least the Filename and path information of theprint job on the Cloud Storage service.

FIG. 27 depicts an embodiment for processing a print job received by thescheduled print device 30. In one embodiment, the print job includes PJLcommands/comments that are generated by the printer driver 24 of theclient device 20. An example set of PJL commands/comments generated bythe printer driver 24 is depicted in FIG. 10.

As depicted in FIG. 27, the scheduled print device 30 first identifiesthe number of pages in the received print job, in step 2702.

In step 2704, the scheduled print device 30 determines whether the printjob is a scheduled print job by, for example, determining whether thePJL commands/comments associated with the print job includes “PDLSCHEDULEJOB”. Alternatively, the scheduled print device 30 determineswhether the print job is a scheduled print job based on other specifiedinformation stored in the PJL commands/comments.

If the print job is determined not to be a scheduled print job, thenumber of pages determined in step 2702 dictates how the print deviceresponds. The scheduled print device 30 determines whether the number ofpages in the print job exceeds a threshold for immediate print, in step2706. If the number of pages in the print job does not exceed thethreshold, then the print job is sent, in step 2708, to the print systemfor printing. However, if the number of pages in the print job exceedsthe threshold, the print job is scheduled, in step 2710, for off peakprinting, and job information corresponding to the print job is createdand stored into a Job Schedule Database.

On the other hand, if the print job is a scheduled print job, then thePJL instructions determine how the print device responds. In step 2712,the scheduled print device 30 parses the PJL commands/comments that aregenerated by the printer driver 24 of the client device 20. In step2714, a unique JobID is created and job information corresponding to theprint job is stored into the Job Schedule Database. After the jobinformation corresponding to the print job is stored in either steps2710 or 2714, the print job is encrypted and stored, in step 2716, inthe scheduled print device 30. Further, the scheduled print job is addedto the job scheduler of the scheduled print device 30.

In step 2718, the scheduled print device determines that the field‘CLOUDSTORAGE’ is present in the PJL commands. Based on the field, thejob is stored, in step 2720, either in Cloud Storage or stored, in step2722, in local storage on the printer. The Job Filter Module also storesthe filename/path of the print job in to CloudStorageInfo field in thedatabase.

FIG. 28 depicts a process for executing the scheduled print job. Forexample, a job execution thread performs execution of the scheduledprint job according to scheduled job attributes related to the scheduledprint job. For example, in step 2802, the job execution thread reads thescheduled job attributes from the database. In one embodiment, thescheduled job attributes include a Job ID, which is used to fetch ascheduled print job from the storage 44; a User E-mail, which is used bythe notification module 48 to send an e-mail including statusinformation; a Mobile Number, which is used by the notification module48 to send a text message including the status information; distributejob printer addresses, if available, which are used by the scheduledprint device 30 to forward the print job for printing by one or moreprinters identified by the distribute job printer addresses; andCloudStorage, which, if set as determined in step 2824, causes the jobto be downloaded in step 2828 from Cloud Storage using the informationstored in CloudStoreInfo. Otherwise, the print job is accessed fromlocal storage.

In step 2804, the scheduled print job is sent to local host port 9100(e.g., DiPrint 9100 266 depicted in FIG. 22).

In step 2806, the job execution thread determines whether the scheduledprint job was completed successfully. If the scheduled print job did notcomplete successfully, as determined in step 2806, then the jobexecution thread determines whether an error occurred while printing thescheduled print job, in step 2816.

If a printer error did not occur while printing the scheduled print job,the job execution thread returns to step 2806, at which time the jobexecution thread again determines whether the print job has beencompleted.

If a printer error did occur while printing the scheduled print job, thejob execution thread determines whether an alternate printer forprinting the scheduled print job exists, in step 2818. If an alternateprinter does not exist, in step 2820, a notification may optionally besent to an administrator or any other designated party. If an alternateprinter does exist, the job execution thread in step 2822 is sent toport 9100 of the alternate printer.

If the scheduled print job is completed successfully or printer erroroccurred, then in step 2808, the job execution thread determines whetherthe scheduled print job is to be distributed to any other printingdevices. For example, the job execution thread determines whether thescheduled job attributes include at least one printing device address orhost name to which the scheduled print job should be distributed. If thescheduled job attributes are determined to include at least one printingdevice address or host name, the scheduled print job sent to port 9100of each of the at least one printing devices, in step 2810.

In step 2812, an e-mail and/or text message indicating whether thescheduled print job was printed successfully is created and sent.

After creating and sending the e-mail and/or text message, the scheduledprint job is deleted in step 2814.

FIG. 29 depicts an example set of PJL commands/comments generated by theprinter driver 24 for the scheduled print request. As depicted in FIG.26, the PJL commands include information regarding the print job type,user ID, e-mail address, password, mobile number, time at which theprint job is scheduled, date at which the print job is scheduled, and IPaddresses or host names of printers to which the print job is to bedistributed and whether or the job is stored in cloud storage. The PJLcommands/comments are processed by the scheduled print device 30, asdiscussed with respect to FIG. 13.

Numerous modifications and variations are possible in light of the aboveteachings. It is therefore to be understood that within the scope of theappended claims, the invention may be practiced otherwise than asspecifically described herein.

What is claimed is:
 1. A printing device comprising: a network control service configured to receive a request to print a scheduled print job, the scheduled print job including scheduled print job attribute data that includes a plurality of print job language commands that specify a scheduled time the scheduled print job is to be printed and a location of the scheduled print job; local storage configured to store the scheduled print job attribute data; and a job scheduler configured to: examine the plurality of print job language commands included in the scheduled print job attribute data to determine whether the scheduled print job is stored on a cloud storage that is separate from the printing device or on the local storage on the printing device, in response to determining that the plurality of print job language commands specify that the scheduled print job is stored on the cloud storage that is separate from the printing device, then retrieve the scheduled print job from the cloud storage that is separate from the printing device, in response to determining that the plurality of print job language commands specify that the scheduled print job is stored on the local storage of the printing device, then retrieve the scheduled print job from the local storage of the printing device, retrieve, from the local storage on the printing device, the scheduled print job attribute data that includes the plurality of print job language commands that specify a scheduled time that the scheduled print job is to be printed and a location of the scheduled print job, store, in a scheduled job list in the printing device, schedule data that specifies the scheduled time that the scheduled print job is to be printed; print the scheduled print job at the scheduled time that the scheduled print job is to be printed based on the schedule data; determine whether or not the scheduled print job was printed successfully at the scheduled time that the schedule print job is to be printed; and send, to a specified device, a message indicating whether or not the scheduled print job was printed successfully.
 2. The printing device of claim 1, further comprising an interface, coupled to the network control service and the local storage device, and configured to receive a request to modify, or delete, or immediately print, the scheduled print job.
 3. The printing device of claim 1, further comprising an administrator interface coupled to the local storage device, and configured to receive a parameter defining a page number threshold for determining whether to schedule the scheduled print job for printing during off peak hours.
 4. The printing device of claim 1, further comprising an administrator interface coupled to the local storage device, and configured to transfer the scheduled print job to an alternative printing device when the scheduled print job cannot be printed at the scheduled time by the printing device.
 5. The printing device of claim 1, further comprising an administrator interface coupled to the local storage device and the job scheduler, and configured to send the scheduled print job to at least one other printing device designated for the scheduled print job.
 6. The printing device of claim 1, further comprising an administrator interface coupled to the local storage device, and configured to send status information to an administrator device connected to the printing device over the network, the administrator device being configured to receive status information, including a job log, from a plurality of printing devices.
 7. One or more non-transitory computer readable media storing instructions which, when processed by one or more processors causes: receiving a request to print a scheduled print job from the client device, the scheduled print job including scheduled print job attribute data that includes a plurality of print job language commands that specify a scheduled time the scheduled print job is to be printed and a a location of the scheduled print job; examining the plurality of print job language commands included in the scheduled print job attribute data to determine whether the scheduled print job is stored on a cloud storage that is separate from the printing device or on the local storage on the printing device, in response to determining that the plurality of print job language commands specify that the scheduled print job is stored on the cloud storage that is separate from the printing device, then retrieving the scheduled print job from the cloud storage that is separate from the printing device, in response to determining that the plurality of print job language commands specify that the scheduled print job is stored on the local storage of the printing device, then retrieving the scheduled print job from the local storage of the printing device, retrieving, from the local storage on the printing device, the scheduled print job attribute data that includes the plurality of print job language commands that specify a scheduled time that the scheduled print job is to be printed and a location of the scheduled print job, storing, in a scheduled job list in the printing device, schedule data that specifies the scheduled time that the scheduled print job is to be printed; printing the scheduled print job at the scheduled time that the scheduled print job is to be printed based on the schedule data; determining whether or not the scheduled print job was printed successfully at the scheduled time that the schedule print job is to be printed; and sending, to a specified device, a message indicating whether or not the scheduled print job was printed successfully.
 8. The one or more non-transitory computer readable media of claim 7, further comprising additional instructions which, when processed by one or more processors, causes receiving a request to modify, or delete, or immediately print, the scheduled print job.
 9. The one or more non-transitory computer readable media of claim 7, further comprising additional instructions which, when processed by one or more processors, causes receiving a parameter defining a page number threshold for determining whether to schedule the scheduled print job for printing during off peak hours.
 10. The one or more non-transitory computer readable media of claim 7, further comprising additional instructions which, when processed by one or more processors, causes transferring the scheduled print job to an alternate printing device when the scheduled print job cannot be printed at the scheduled time by the printing device.
 11. The one or more non-transitory computer readable media of claim 7, further comprising additional instructions which, when processed by one or more processors, causes sending the scheduled print job to print at at least one other printing device designated for the scheduled print job.
 12. The one or more non-transitory computer readable media of claim 7, further comprising additional instructions which, when processed by one or more processors, causes sending status information, including a job log, to an administrator device connected to the printing device over the network, the administrator device being configured to receive status information, including a job log, from a plurality of printing devices.
 13. The one or more non-transitory computer readable media of claim 7, wherein the scheduled print job attributes indicate a filename and path in cloud storage at which the print job is stored; and wherein the step of obtaining the print job from cloud storage or a local storage device depending on the storage selection indicator includes obtaining the print job from cloud storage at the indicated filename and path when the storage selection indicator indicates that cloud storage stores the print job.
 14. A method for printing a scheduled print job by a printing device connected to a client device over a network, the method comprising: receiving a request to print a scheduled print job from the client device, the scheduled print job including scheduled print job attribute data that includes a plurality of print job language commands that specify a scheduled time the scheduled print job is to be printed and a location of the scheduled print job; examining the plurality of print job language commands included in the scheduled print job attribute data to determine whether the scheduled print job is stored on a cloud storage that is separate from the printing device or on the local storage on the printing device, in response to determining that the plurality of print job language commands specify that the scheduled print job is stored on the cloud storage that is separate from the printing device, then retrieving the scheduled print job from the cloud storage that is separate from the printing device, in response to determining that the plurality of print job language commands specify that the scheduled print job is stored on the local storage of the printing device, then retrieving the scheduled print job from the local storage of the printing device, retrieving, from the local storage on the printing device, the scheduled print job attribute data that includes the plurality of print job language commands that specify a scheduled time that the scheduled print job is to be printed and a location of the scheduled print job, storing, in a scheduled job list in the printing device, schedule data that specifies the scheduled time that the scheduled print job is to be printed; printing the scheduled print job at the scheduled time that the scheduled print job is to be printed based on the schedule data; determining whether or not the scheduled print job was printed successfully at the scheduled time that the schedule print job is to be printed; and sending, to a specified device, a message indicating whether or not the scheduled print job was printed successfully.
 15. The method of claim 14, wherein: the storage selection indicator indicates that the print job is stored on the cloud storage that is separate from the printing device, the scheduled print job attribute data indicates a filename and a path in the cloud storage where the print job is stored, and retrieving the print job from the cloud storage that is separate from the printing device includes retrieving the print job from the cloud storage at the filename and path indicated by the scheduled print job attribute data.
 16. The method of claim 15, further comprising receiving a request to modify, delete, or immediately print, the scheduled print job.
 17. The method of claim 15, further comprising receiving a parameter defining a page number threshold for determining whether to schedule the scheduled print job for printing during off peak hours.
 18. The method of claim 15, further comprising transferring the scheduled print job to an alternate printing device when the scheduled print job cannot be printed at the scheduled time by the printing device.
 19. The method of claim 15, further comprising sending the scheduled print job to print at at least one other printing device designated for the scheduled print job.
 20. The method of claim 15, further comprising sending status information to an administrator device connected to the printing device over the network, the administrator device being configured to receive status information, including a job log, from a plurality of printing devices. 